AgPhysics

By Hugh Lovel

Global warming gets a lot of press and not many are aware that half our excess CO2 dissolves into the oceans reacting with calcium to form limestone which settles into the deeps. This won’t last. As the oceans acidify and lose their calcium they absorb less CO2. Gradually more will stay in the atmosphere, and global warming may double and redouble.
There is also global dimming, since particulate matter going up in smoke along with CO2 cools the earth. Cleaning up these emissions may further increase the doubling effect. With polar ozone depletion, more ultra-violet hits the ice caps in summer. If this reaches the point where a layer of dirt is exposed on the surface of the snow, it will accelerate melting. As the ice lifts off Greenland and Antarctica the global weight shift may give us more earthquakes and volcanoes. Of course, volcanoes may send aloft enough sulphur dioxide and other dusts and volatiles to cool the earth off again for a spell. But what goes up will come back down as acid rain, further acidifying fields, forests and oceans. Already acid rains ensure that we can lose forests without cutting the trees down.

Doubling economic output and debt, clear-felling, soil erosion, desertification, bee collapse, chemical pollution, heavy metals, electromagnetic wave pollution—the list goes on. What about the earth’s magnetic field? If it keeps weakening and its poles flip, what will that do to the Van Allen Belts that protect us from solar radiation? And maybe none of this compares to the deterioration of financial and political stability and the spread of warfare, not to mention the war on terror and the spread of depleted uranium dust from US munitions. We may be in for far more exciting times than anyone dares to predict.
These things are complex, and one change alters another and another in a cascade of effects, some devastating and some benign. There is no single cause or effect, and single factor analysis isn’t worth hog’s breath—though if all we put in is disruptive causes, like depleted uranium, we tend to run out of benign effects, like global dimming, while more and more effects, such as desertification and global fresh water loss, bring us closer and closer to chaos out of which a new and different system may arise. This is called a chaordic system, which means that the further things slip into chaos, the more probability there is of a new order arising.

Background

In chaordic systems energy works in two opposite directions—one is disorganizational, leading to chaos; the other is organizational, leading to order. On the disorganizational side, energy flows from higher concentration to lower concentration. On the organizational side, energy flows from lower concentration to higher concentration. Disorganizational flows are characteristic of non-living things such as an explosive weapon or an electric motor. Organizational flows are characteristic of living things such as a calf or a seedling. In fact, organization is the basis of life—life wouldn’t occur otherwise. As Nobel Prize winning physicist Erwin Schrödinger put it, living organisms have the remarkable ability to draw a stream of order to themselves, thus reversing what is known as entropy.
Weather systems are chaordic, and thus are a good place to learn about generating order from chaos. As from a tiny zygote a giant whale can grow, in fluid dynamics a microscopic change at a point can effect large scale changes in the medium. When we seed something rich in organization into a chaordic system this can trigger a flow from chaos towards order, and a stream of organization can arise from its surroundings.

Cloud Formation

Imagine the daily cycle of moisture evaporating into the atmosphere—chaotic at first, but caught up in the organization of warmth spiralling upward in rising thermals. As this warm, moist air ascends into cooler upper regions of the atmosphere, the moisture turns into puffs of cloud. These ‘seed’ clouds, with their blazing white tops, percolate in the sunshine with the cooler air spilling down around their sides, while they suck in more moisture from the rising thermals.
As clouds build and push upward, cooler, dryer air filters down around and the cloud ceiling lowers. When this condition proceeds strongly, enough moisture in the lower atmosphere is sucked up densely enough that rain occurs, often as afternoon thundershowers.
Of course the above is an oversimplification, and the dynamics of rain depend not only on the daily and seasonal rhythms of warmth and light, but also moon cycles, air currents, relative humidity and many other things. Clouds can build up slowly with a high cloud ceiling, towering so tall that when they finally do release their moisture it falls as hail. Or various influences from chemical air pollution to energetic disturbances may disrupt the seeds of organization before they can grow. The air currents in the upper atmosphere may themselves be so depleted of moisture and so stagnant in their movement that organization is weak; and instead of clouds, drought occurs. It would be fair to say that everything from radioactive waste and electric power to sunspots can affect the weather.

Electrons and Water

Atmospheric moisture does not form clouds all by itself. Moisture tends to become attached to the finest particles in the atmosphere, which are mostly fine siliceous dusts that easily give and receive electrons. Water, which may be thought of as hydrogen oxide, is very sensitive to electron surpluses or deficiencies. On a water molecule’s oxygen side electrons are deficient, while on the hydrogen side there is more or less a surplus. If the siliceous particles have electrons to spare, water molecules will cluster with their oxygen side in and their hydrogen side out. The more abundant the electrons are the more easily they will satisfy oxygen’s hunger so that water molecule clusters are small and plentiful. Then moisture swiftly forms a fine, dense fog, cloud boundaries are well-defined and rain falls easily from lower altitudes and smaller clouds.
Where electrons are in short supply the water molecule clusters will be huge, the clouds will be less dense and build into towering masses with high cloud ceilings before precipitating—as we see in the case of hail. And where pollution blocks the sharing of electrons, perhaps coating these seed particles with water repellent gunk, we may see only haze, such as hovers over many a large city or industrial region. Under these conditions it almost doesn’t matter how high the humidity gets, there is little or no cloud formation—or if there are clouds they may build into towering thunderheads before dropping their moisture as hail. On the other hand when the availability of electrons increases and more of the atmosphere’s fine silica particles become more receptive to moisture, this tends to have a big influence on rain.

What We Can Do

Amongst those not devoted to denial, many wring their hands or form political action groups that stage various events to try to make civic and industrial leaders do something to stop mucking up the weather. Hardly any think corrective action to re-organize the atmosphere is possible, although most believe things might get better if we only stopped polluting. This view isn’t bad, but it has taken 150 years or so to realize our peril and the situation is already quite advanced. If we wait for vested interests to change, those of us dependent on agriculture will be the ones to suffer most.
Fortunately, it is not too late to take corrective action. While the cities with their auto and industrial pollution have influenced the weather in very disorganizational ways causing droughts and violent storms, common people can respond by influencing the weather in organizational ways to reduce these hazards.

Construction Plans

What follows are instructions for setting up simple devices to restore order to the atmosphere and improve the weather. This concept was originated by Don Croft, using a material developed by Jermaine Trott called “organite.” [More at: http://educate-yourself.org/ct/ ] Don originally called his invention a cloudbuster or chembuster, but this caused confusion and I have renamed the device an atmospheric reorganizer (AR) because it re-organizes the atmosphere, restoring the ether—which is the ancient name for the organizational field. The fact that it clears up toxic clouds or breaks up the exhaust trails of military aircraft (chemtrails) is a side effect. A more important side effect is making rain more likely and extreme weather—such as hail or floods—less likely. It is a simple, passive device that once you make it and set it up there is no maintenance other than to clip the weeds around it and see it hasn’t tipped over. A single unit ought to affect an area with a radius of about 15 miles, which is an area of almost 700 sq mi or 1,800 sq km [area of a circle = πr2].

Materials Required

By the numbers: 1. One gallon (or 4 litre) bucket. 2. Spacer and guide for short pipes in the organite block. Note: the central hole is for the single, 1 inch diameter central short pipe that terminates above the organite block. 3. Second pipe guide for short pipes. 4. Six 48 inch (122 cm) lengths of ¾ inch hard copper pipe. 5. Top pipe guide for secondary longer pipes. 6. Six 12 inch (30 cm) lengths of ¾ inch hard copper pipe. 7. Six well formed quartz crystals that fit inside the ¾ inch pipes and one slightly larger one that fits inside the 1 inch pipe. 8. One 8 inch (20 cm) 1 inch hard copper pipe. 9. Biodynamic preparation 501 [horn quartz]. 10. Biodynamic preparation 500 [horn manure]. 11. Masking tape to securely tape over the ends of the short pipes prior to adding a pinch of 501 and a quartz crystal pointed towards the closed end of the pipe before filling with polyester resin. 12. Aluminium curls made by chipping up an old aluminium alloy cylinder head with a milling machine. (More is needed than what is shown for one AR.) 13. 500 ml measuring cup for mixing polyester resin. (Resin must be mixed precisely with a minimum of catalyst [1:100 ratio] or block will overheat as it sets.) 14. Not shown—polyester resin and catalyst [methyl ethyl ketone peroxide] as well as six couplings for the long copper pipes.
This is a sufficient list, though other materials could conceivably be included. For example, if I had any powdered biodynamic horn clay I would add this to the resin when pouring the organite base. Someone has suggested magnets. Before I recommend this I would like to test various arrangements of magnet orientations and develop a jig to hold the magnets in place as I poured my organite. But I wouldn’t be surprised if the AR could be enhanced by taking six small magnets with the north pole ends facing inward toward the six outer pipes at the level of the wooden spacer/guide in the organite block.
Basically it’s all about organization. The more highly organizational the organite block is, the more the atmospheric reorganizer will be able to evoke order out of chaos—which brings me to the subject of organite.

Organite

Organite by itself it is a hard, block of two of the most densely organized materials in nature, metal and crystallized carbon. When pouring it, we can add other things that are themselves highly organized. One of these is silica as quartz crystals, which should go in the tops of the short copper tubes in order to project the natural organizational pattern for silica into the atmosphere. Since nature’s opposite polarity from silica is lime, we might also add sea shells or snail shells at the bottoms of the short copper tubes to influence lime’s patterns of organization of the soil as well. And since biodynamic preparations tend to be especially highly charged with organizational forces they too can be amongst the best things to add.

Assembly

When pouring the short tubes for the base block you have to tape the ends thoroughly and pour them with the top end down. I always put a pinch of 501 in the end that will end up pointing upward, with a quartz crystal right behind the 501. This is to restore and improve the organization of silica in the atmosphere. Then a spoonful each of dried, powdered biodynamic spring to spring horn clay (SSHC) and cowpat pit compost (CPP) can be mixed into the half a litre of resin needed to fill these tubes. Since clay and clay/humus complexes mediate between the two poles, this will connect the silica and lime extremes. After the tubes set, smear some 500 on the bottom of each before pouring the base around them. Be advised that moisture affects the methyl ethyl ketone peroxide catalyst and renders it less effective in setting the resin, so the preparations should not contain much moisture or the organite block may not set in those spots. If shells are used, they can be packed with BD 500, but again be careful of moisture near the bottom of the block. Using the Horn Manure (BD 500) at the (bottom) end of the tubes in the organite base will increase the organization of lime in the soil.*

* Some have objected that a negative feature of polyester resin—though it may have little effect on the material as a resonant, crystallized carbon compound—is the smelly, toxic styrenes it contains. I would be the first to admit that every time I even think about handling polyester resin I shudder. If in further experiments I can prove out a better material I will be sure to make it public.

Base Assembly

Start like this with some shavings in the bottom

Add some resin before adding the base assembly followed by more metal and resin.

Mid-pour/ Base Assembly

Finished but not set

Completed Base

Finished

Organite should have about a third its total mass in metal shavings (tin, brass, copper or aluminium alloy, or perhaps any metal that conducts electrons well. I like aluminium because it tends to draw electrons from the earth. Gold, the metal of emperors and the premier of electronic conductors, might be ideal, but I don’t foresee much of that happening as the gold would be worth so much it would be stolen. Silver, also an excellent conductor, would be less vulnerable. Copper coated BBs in sufficient quantities might be found at a sporting goods store. Fibreglass resin is good because it is a crystalline carbon material with good resonance. Perhaps pine resin would be better, but the expense might be prohibitive.
The organite base of the finished AR should be about nine tenths buried in the earth to make a good ground. This allows the device to channel a stream of electrons up the tubes, and this may make the copper gradually turn a deep cobalt blue, a sign of anodization. The negative ion stream tends to reverse the oxidation of the copper.

How It Works

Basically we are conveying the organizational patterns of silicon and carbon into the atmosphere and soil, though the stream of negative ions helps to make the water molecule clusters very fine and dense. It is the patterning that re-organizes the fine silica particles in the atmosphere and attracts the electrons that make water wetter and make it a better solvent. Then atmospheric moisture is much more able to wash oily, toxic pollution out of the atmosphere.
Since—along with the patterning of silicon in the atmosphere—atmospheric reorganizers also seem to increase the organization of the carbon into the soil, there is actually a two-fold effect, and carbon’s strong affinity for hydrogen helps bring the rain to earth.
Some feel this flies in the face of the old saw, “If at first you don’t succeed, get a bigger hammer.” That’s because in chaordic systems order is catalysed by introducing microscopic changes at points, rather than using sledge hammers to fix Swiss watches—or more appropriately, particle accelerators to transmute atoms.
Atmospheric reorganization is very helpful because there is now more evaporation from the oceans than ever before in human history. It must fall somewhere. More and more often it falls at sea as the continents increasingly become barren and drive the rain away. But when it does fall on the land it is increasingly likely to cause floods. Atmospheric reorganizers will improve the situation by bringing more rain but fewer extremes such as hail or floods. And it is not like one is stealing someone else’s rainfall, but rather like stealing their droughts, hail and floods.

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